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Beilstein J. Nanotechnol. 2018, 9, 1995–2014, doi:10.3762/bjnano.9.190
Figure 1: a) Scheme of a MoO3 nanocrystal on MoS2. The AFM tip is firmly positioned on top on the nanocrystal...
Figure 2: a) Example of a nanomanipulation during which half of a nanoparticle is scan-imaged, before the tip...
Figure 3: Dependence of nanoparticle shear stress on the contact area. a) Relative shear stress obtained from...
Figure 4: Front perspective: a snapshot of a MD-simulated frictional interface between a colloidal monolayer ...
Figure 5: a) A graphene nanoribbon manipulated along a Au(111) surface. A probing tip lifts the GNR verticall...
Figure 6: Single-molecule tribology. a) Schematic drawing of the experiment: A single porphyrin molecule is a...
Figure 7: Non-contact friction experiments of NbSe2. At certain voltages and distances, one finds dramaticall...
Figure 8: The “Swiss Nanodragster” (SND), a 4’-(p-tolyl)-2,2’:6’,2”-terpyridine molecule, was moved across an...
Figure 9: Example of a change of conformation potentially triggered at surfaces. a) Trans (1) and cis (2) iso...
Beilstein J. Nanotechnol. 2011, 2, 34–39, doi:10.3762/bjnano.2.4
Figure 1: (a) Topographical measurement of molecular structures at KBr step edges showing monowires (1), unor...
Figure 2: (a) Topography of cyano-porphyrin molecular wires on a NaCl single crystal surface. In contrast to ...
Figure 3: nc-AFM measurements of molecular assemblies grown on an ultrathin KBr layer on Cu(111). (a) 100 × 1...
Figure 4: Chemical structure of the meso-(4-cyanophenyl)-substituted Zn(II) porphyrin investigated in this st...